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A turing machine operates over

Niedrige Preise, Riesen-Auswahl. Kostenlose Lieferung möglic Riesenauswahl an Markenqualität. Folge Deiner Leidenschaft bei eBay! Über 80% neue Produkte zum Festpreis; Das ist das neue eBay. Finde ‪Machines‬ A turing machine operates over: finite memory tape infinite memory tape depends on the algorithm none of the mentioned. Formal Languages and Automata Theory Objective type Questions and Answers. A directory of Objective Type Questions covering all the Computer Science subjects A Turing machine is a mathematical model of computation that defines an abstract machine that manipulates symbols on a strip of tape according to a table of rules. Despite the model's simplicity, given any computer algorithm, a Turing machine capable of simulating that algorithm's logic can be constructed.. The machine operates on an infinite memory tape divided into discrete cells

The turing machine operates on an infinite memory tape divided into cells. The machine positions its head over the cell and reads the symbol. This discussion on A turing machine operates over:a)finite memory tapeb)infinite memory tapec)depends on the algorithmd)none of the mentionedCorrect answer is option 'B' A Turing machine then, or a computing machine as Turing called it, in Turing's original definition is a machine capable of a finite set of configurations q1, , qn (the states of the machine, called m -configurations by Turing) How a Turing Machine works? A Turing M achine (TM) is a state machine which consists of two memories: an unbounded tape and a finite state control table. The tape holds data as symbols. The machine has a very small set of proper operations, 6 at all (read, write, move left, move right, change state, halt) on the tape A turing machine operates over: a. finite memory tape: b. infinite memory tape: c. depends on the algorithm: d. none of the mentioned: View Answer Report Discuss Too Difficult! Answer: (b). infinite memory tape. 9. Which of the functions are not performed by the turing machine after reading a symbol? a

How Alan Turing found machine thinking in the human mind

The turing machine operates on an infinite memory tape divided into cells. The machine positions its head over the cell and reads the symbol. QUESTION: 3 Which of the functions are not performed by the turing machine after reading a symbol Just like in programming languages, Turing machines have loops. The loop replaces all 0s with 0s, and moves right. In other words, it just skips over all the 0s. X, X / R is Turing-machine-speak..

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  1. §The machine has a head which is positioned over one How a Turing Machine Works Symbol Read Write Instruction Move Instruction Blank None None 0 Write 1 Move tape to the right 1 Write 0 Move tapeto the right 1 1 0 The current symbol under the head is 0, so we write 1 and move th
  2. 12. A turing machine operates over: a) finite memory tape b) infinite memory tape c) depends on the algorithm d) none of the mentioned. View Answer . Answer: b Explanation: The turing machine operates on an infinite memory tape divided into cells. The machine positions its head over the cell and reads the symbol
  3. A turing machine operates over: a) finite memory tape b) infinite memory tape c) depends on the algorithm d) none of the mentioned View Answer. Answer: b Explanation: The turing machine operates on an infinite memory tape divided into cells. The machine positions its head over the cell and reads the symbol. 3. Which of the functions are not.
  4. Turing machines codify directly the most basic operations of a human computor and can be realized as physical devices, up to a point. Gödel took for granted that finite machines just are (computationally equivalent to) Turing machines

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A Turing Machine is an accepting device which accepts the languages (recursively enumerable set) generated by type 0 grammars. It was invented in 1936 by Alan Turing In this case, the machine can only process the symbols 0 and 1 and (blank), and is thus said to be a 3-symbol Turing machine. At any one time, the machine has a head which is positioned over one of the squares on the tape. With this head, the machine can perform three very basic operations: Read the symbol on the square under the head The Turing machine operates through a finite control, a reader head and a ribbon on which there may be different characters, and on which the input word is found. To the right side, the ribbon has a length which is the place where the spaces are filled with the white character which is represented by the letter t Note: This machines begins by writing a blank over the leftmost zero. This allows it to find the left-end of the tape in stage 4 It also allows to identify the case when tape contains one zero only, in stage 2 Examples of Turing Machines - p.9/2 Defining a Turing Machine Configuration Things that must be tracked: 1. Current state 2. Current tape contents 3. Current head location These 3 things are the configuration of the TM. For a state q and two strings u and v over the tape alphabet Γ, we write uqv for the configuration: Current state is q, Current tape contents is uv

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A turing machine operates over

  1. Turing machine, hypothetical computing device introduced in 1936 by the English mathematician and logician Alan M. Turing.Turing originally conceived the machine as a mathematical tool that could infallibly recognize undecidable propositions—i.e., those mathematical statements that, within a given formal axiom system, cannot be shown to be either true or false
  2. A Turing machine is an abstract computational model that performs computations by reading and writing to an infinite tape. Turing machines provide a powerful computational model for solving problems in computer science and testing the limits of computation — are there problems that we simply cannot solve? Turing machines are similar to finite automata/finite state machines but have the.
  3. TOC: Turing Machine for Even PalindromesTopics discussed:This lecture shows how to design a Turing Machine for even palindromes over the alphabets {a,b}Contr..
  4. Turing Machine was invented by Alan Turing in 1936 and it is used to accept Recursive Enumerable Languages (generated by Type-0 Grammar). A turing machine consists of a tape of infinite length on which read and writes operation can be performed
  5. There are multi-tape Turing Machines, Universal Turing Machines, and many other variations. Adapting the TMS program to read multiple tapes would be an interesting project. Thinking in terms of Turing Machines can be difficult and laborious at times, but the reward is the gained insight into the fundamental nature of computation
  6. TOC: Turing Machine (Example-1)Topics discussed:This lecture shows how to design a Turing Machine for the language 01*0Contribute: http://www.nesoacademy.org..
  7. Turing Machines: Informal Example M 1 accepts strings of fw#wjw 2f0;1gg. It works as follows: 1.At the start, the input string appears on the tape; the tape-head is over the leftmost cell

A Turing machine mathematically models a mechanical machine that operates on a tape. More explicitly, a Turing machine consists of (mostly from Wikipedia): A tape divided into adjacent cells. Each cell contains a symbol from some finite alphabet What is a Turing Machine? Devised by Alan Turing way back in 1936, a Turing Machine is more of a model than an actual 'machine'. It attempts to define an abstract machine (a theoretical model of a computer) through an algorithm that enables it to simulate any algorithm logic, simple or complicated You have a Turing machine which has its memory tape unbounded on the right side which means that there is a left most cell and the head cannot move left beyond it since the tape is finished. Unfortunately, you also find that on execution of a head move left instruction, rather than moving to the adjacent left cell, the head moves all the way. Turing machines operate over discrete strings of elements (digits) drawn from a finite alphabet. One recurring controversy concerns whether the digital paradigm is well-suited to model mental activity or whether an analog paradigm would instead be more fitting (MacLennan 2012; Piccinini and Bahar 2013) Alan Mathison Turing OBE FRS (/ ˈ tj ʊər ɪ ŋ /; 23 June 1912 - 7 June 1954) was an English mathematician, computer scientist, logician, cryptanalyst, philosopher, and theoretical biologist. Turing was highly influential in the development of theoretical computer science, providing a formalisation of the concepts of algorithm and computation with the Turing machine, which can be.

Turing beim führenden Marktplatz für Gebrauchtmaschinen kaufen. Jetzt eine riesige Auswahl an Gebrauchtmaschinen von zertifizierten Händlern entdecke Click here to get an answer to your question ️ a Turing machine operates over thubeshubhangi2000 thubeshubhangi2000 29 minutes ago Computer Science Secondary School answered A Turing machine operates over 2 See answers thubeshubhangi2000 is waiting for your help. Add your answer and earn points The Turing Machine A Turing machine consists of three parts: A finite-state control that issues commands, an infinite tape for input and scratch space, and a tape head that can read and write a single tape cell. At each step, the Turing machine writes a symbol to the tape cell under the tape head, changes state, and moves the tape head to the left or to the right A Turing machine is a tape with one row of characters and a pointer that can move just one space at a time. The rules for formal languages may grow more and more complex, but all robust general..

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Following Turing, to say that a mathematical function, for example addition over the integers, is computable is to say that there is a Turing machine which is such that if, for any pair of integers x and y, the machine is given x and y as input, it will print out the value of x+y and halt The principles upon which a Turing machine functions include a set of controls for input and output data, the machine for processing the data in some form, and a set of established rules for how this data is processed by the machine. Alan Turing is responsible for inventing the turing machine in 1936

Turing didn't come up with a machine. Turing came up with an abstract model for all machines. In other words, any algorithm ever can be built on a Turing machine. From 2 + 2 all the way to the latest Assassin's Creed, a Turing machine can run it. (But the latter will require a lot of tape. Like, a lot a lot.) It's a theoretical description of. A Turing machine is a math concept that show that a few simple rules can be used to solve any computable computation. It is the basis for all of today's comp.. • M is a Turing machine (suitably coded, in binary) with input alphabet {0,1}. • w is a string of 0s and 1s. • M accepts input w. If this problem with binary inputs is undecid-able, then surely the more general problem, where the Turing machines may have any al-phabet, is undecidable. First step: codify a Turing machine as a strin In order to answer this question, we need to understand how the Turing machine operates. Touring With Turing. A (hypothetical) Turing machine consists of a tape divided into cells, with a scanning head that stands over a cell, and which can move to the previous or the next cell

Turing machine - Wikipedi

By Turing machine one can imagine a computer with a program that runs on it. This computer has infinite amount of storage (for example, RAM) and can print on infinite roll of paper. It takes as an input, a binary string with finite length, and processes it Multitape Turing Machines • A multitape Turing machine is like an ordinary TM but it has several tapes instead of one tape. • Initially the input starts on tape 1 and the other tapes are blank. • The transition function is changed to allow for reading, writing, and moving the heads on all the tapes simultaneously What mattered was the state the calculation was in and the fact that they could look over their scratch paper and write on any part of it. Similarly, a Turing machine has a set of steps it can be in, like the steps when you're following directions. Now for the algorithm, written in full detail for how a Turing machine operates. In essence, we're designing a multi-head (two heads: I and J) Turing machine M= Q, Γ, s, b, F, δ processing on its tape a to-be-sorted list L. In contrast to existing techniques like Alex Graves' Neural Turing Machines in this work, I used a much simpler approach with the price of less customizability but instead with higher interpretability Turing Machines P. Danziger 1 Turing Machines A Turing machine consists of a Finite State Control, which is an FSA, and an infinitely long read write 'tape'. This tape is divided into cells, at each step the read/write head is positioned over a particular cell

Prerequisite - Turing Machine Problem - Draw a Turing machine which copy data. Example - Steps: Step-1. First convert all 0's, 1's into 0's, 1's and go right then B into C and go left ; Step-2. Then convert all 0's, 1's into 0's, 1's and go left then ; Step-3 computable and what is not. The Turing Machine de nition seems to be the simplest, which is why we present it here. The key features of the Turing machine model of computation are: 1. A nite amount of internal state. 2. An in nite amount of external data storage. 3. A program speci ed by a nite number of instructions in a prede ned language. 4 $\begingroup$ A simple Turing Machine ( as I am just learning its basics ) .Yes every time when I 'll read 'b' I can replace it with any symbol but my problem is that every time when 'b' comes machine will double it 'bb' .For example {c,bc,b,cb} will became {c,bbc,bb,cbb} $\endgroup$ - Zunaira Mar 27 '19 at 1:3 Amazon's AI Guru Is So Totally Over the Turing Test. originally called the imitation game by Alan Turing in 1950, is a test of a machine's ability to works in a small office just a few.

An oracle machine or o-machine is a Turing a-machine that pauses its computation at state o while, to complete its calculation, it awaits the decision of the oracle—an unspecified entity apart from saying that it cannot be a machine (Turing (1939), Undecidable p. 166-168). The concept is now actively used by mathematicians Turing Machines 101. The Turing machine was invented in 1936 by Alan Turing. By providing a mathematical description of a very simple device capable of arbitrary computations, he was able to prove the properties of computation in general. A Turing machine mathematically models a mechanical machine that operates on a tape A probabilistic Turing machine operates with an additional tape of random bits, and its output is a random variable with some distribution over the random bits. Is it also useful to talk about the distribution over all inputs (rather than over all random bits) A Turing machine is a particular kind of program. It's not a machine in the same sense that a laptop is a machine, it's a purely mathematical structure. A TM consists of a state machine, which is two finite sets and a function. The two sets are.

A turing machine operates over:a)finite memory tapeb

Turing Machines (Stanford Encyclopedia of Philosophy

The control operates as a state machine -Starts in an initial state •A machine is in a state '∈and the head is over the the head has moved either left (6)or right (7) 10/8/20 -A Turing machine that halts on allinputs is a decider The rest of this paper is organized as follows. In Sect. 2, we describe the existing parallel Turing machine model in detail and suggest possible areas for improvement.Section 3 presents our proposal: a parallel Turing machine model called PTM based on the concept of codelets and codelet graphs. A PTM consists of a codelet graph and a memory. The program of our PTM is represented by a codelet. It operates around 1 Hz, while a usable internet range will be in the megahertz for users — and giga- to even tera-hertz for servers and internet providers. And this is certainly not the only limitation. Most of what I have done professionally is to run the numbers over limiting scenarios

A forgetful Turing machine (FTM) is a TM which is neither mindful nor numerate. A wise Turing machine (WTM) is a TM which is both mindful and numerate. Define two TMs to be equivalent iff for all given starting configurations, the tapes of the two machines are identical upon halting (provided that both machines halt) Solution : I think a problem is with a very last part: otherwise reject. According to countable set basics, any vector space over the countable set is countable itself.In your case, you have the vector space over a integers of size n, which is countable.So your set of integers is also countable and therefore it is possible to try the every combination of them

The UTM (universal Turing machine) operates with a fixed alphabet. We claim that the UTM can simulate any Turing machine, but the Turing machine (to be simulated) may have an input alphabet Σ (for example the Greek alphabet) and an output alphabet Ω (for example the English alphabet) which are different than the UTM's alphabet ing Machine that works over an encrypted tape, using the homomorphic properties of the encryption. One advantage of this construction is that it does not require a fully ho-momorphic encryption, which is usually less e cient than other cryptographic primitives. 4.1 Turing Machine architecture In this project we worked with multi-tape Turing. Often when I hear Turing machine, my mind's eye pictures a quaint infinite ticker-tape with a small little machine writing and erasing $0$ 's and $1$ 's.. But when I'm forced to think about a Turing machine as a tuple of states, blank symbols, alphabet symbols, transition functions, etc., my mind often glosses over Despite its simplicity, a Turing machine can be adapted to simulate the logic of any computer algorithm, and is particularly useful in explaining the functions of a CPU inside a computer. 2.1 OVERVIEW The Turing machine mathematically models a machine that mechanically operates on a tape as shown in fig1 A computer, it turns out, is just a particular kind of machine that works by pretending to be another machine. Turing did not invent the term artificial intelligence, but his work has been.

The Turing machine. Alan Turing, while a mathematics student at the University of Cambridge, was inspired by German mathematician David Hilbert's formalist program, which sought to demonstrate that any mathematical problem can potentially be solved by an algorithm—that is, by a purely mechanical process. Turing interpreted this to mean a computing machine and set out to design one capable. The Turing machine starts its operation in a particular internal state and terminates its operation in another particular state. The read/write head will focus on the first square on the tape, where the input string (in consecutive squares) to its computation is provided. The Turing machine will execute a sequence of operations • The control operates as a state machine • A machine is in a state q and the head is over the tape at symbol a, then after the move we are in a state r • The set of strings that a Turing Machine M accepts is the language of M, or the language recognized by M, L(M Turing Machine is the ultimate computation capability we reached as showed in the venn diagram

How a Turing Machine works? - I2CEL

Universal Turing Machine Turing Machine: Sequences with equal number of 1s and 0s Turing machine to compute the product of positive integers Turing Machine for even palindromes Turing Machine that Computes the Function f(n) = 2n + 3 Turing machine Turing machine to accept the language A^n B^n C^n Turing machine for unary decremen The Turing machine counts in the same way, it's just adding one to the number that is currently on the tape. The big difference is that the Turing machine counts in binary. When it changes a digit to a zero it also carries and adds the one to the digit to the left A language is decidable if some Turing machine recognizes it and rejects all strings that are not in the language2. 2 Sometimes called a recursive language We conclude this section with two examples. Example 1. Consider a Turing machine M with S = f0,1gthat works as follows: M accept all strings of even length and loop on all strings of odd length vii. Church-Turing Thesis Answer: The informal notion of algorithm corresponds exactly to a Turing machine that always halts (i.e., a decider). viii. Turing-decidable language Answer: A language A that is decided by a Turing machine; i.e., there is a Turing machine M such that M halts and accepts on any input w ∈ A, and M halts and rejects on. It seems that there will be a finite physical upper bound for the size of a Turing machine that can actually operate, and so the physically operable Turing machines do not constitute a Turing-complete model of computation. $\endgroup$ - Joel David Hamkins Jul 28 '17 at 23:3

1 Turing Machines. Formally, a Turing machine is a seven tuple: the finite set of states (Q), the finite set of symbols (Gamma), the blank symbol, the finite set of input symbols (that cannot contain the blank), the starting state (which must be in Q), the final states (a subset of Q), and the transition function A Turing machine operates on a space of cells, which for simplicity are arranged in a unidimensional tape, rather than in a bi-dimensional sheet. We A Turing machine over is a triple T= hQ;q 0;Piwhere: Qis a nite set of states for the machine. q 0 2Qis a designated initial state. P, the program of the machine, is a set of instructions; each. For a 3-State machine, the maximum number of '1's that it can print is proven to be 6, and it takes 14 steps for the Turing machine to do so. The state table for the program is shown below. Since only 2 symbols are required, the instructions for the '0' symbol are left as the default settings A non deterministic turing machine is a turing machine that has more than one next state for one or more current states. It is simply a version of a turing machine that will resolve faster than a turing machine for functions that lend themselves t.. 3. Reverse. Write a TM that takes a string over the alphabet fa;bg and reverses it. For example, input aaabbabecomes abbaaa. Hint: Swap the rst and last character, then the second and next-to-last, and so on, using a techique like you used in problem 2. 4. Addition in binary. This Turing machine works with two inputs made of 0'

are normally encoded as strings over a finite alphabet (so that, e.g., comparing two numbers requires several steps of computation), but these encodings are then open to arbitrary manipulation (so that e.g. numbers can be added). Turing machines. In this paper, we study Turing machines that operate over infinite alphabets that can only be. A Turing machine would be a very impractical way to build a real computer, as it would take a lot of space and time and moving paper around and erasing and writing on it is so much slower than doing things electronically. But the thing is, a turing machine can - eventually - do anything that any other computer can do 5.2 Turing Machines. This section under major construction. Turing machine. The Turing machine is one of the most beautiful and intriguing intellectual discoveries of the 20th century. Turing machine is a simple and useful abstract model of computation (and digital computers) that is general enough to embody any computer program A Turing machine has a configuration in the form if or . Definition 4.5. We say that the Turing machine reach the configuration from in one step - or directly - (notation ), if and exactly one of the following holds: 1) , where , and .d --- overwrite operation 2) , where , and . --- right movement operation 3) , where , and . --- left movement. will study: the Turing machine. •Although it is only slightly more complicated than a finite-state machine, a Turing machine can do much more. •It is, in fact, so powerful no other, more powerful model exists. •The TM is the strongest of computational mechanisms, it does have one weakness, revealed in this chapter: it ca

Formal Languages and Automata Theory Multiple choice

The Turing machine was invented in 1936 by Alan Turing who called it an a-machine (automatic machine). The Turing machine mathematically models a machine that mechanically operates on a tape. On this tape are symbols, which the machine can read and write, one at a time, using a tape head More information: Artemy Kolchinsky et al. Thermodynamic costs of Turing machines. Physical Review Research (2020). DOI: 10.1103/PhysRevResearch.2.033312. Image: A Turing Machine performing a computation over a sequence of steps Credit: Kolchinksy and Wolpert A Turing machine is a device that manipulates symbols on a strip of tape according to a table of rules. Questions (17) Publications (8,317 The human Turing machine: a neural framework for mental programs Ariel Zylberberg1,2, Stanislas Dehaene3,4,5, Pieter R. Roelfsema6,7 and Mariano Sigman1 1Laboratory of Integrative Neuroscience, Physics Department, FCEyN UBA and IFIBA, Conicet; Pabello´n 1, Ciudad Universitaria, 1428 Buenos Aires, Argentina 2Instituto de Ingenierı´a Biome´dica, Universidad de Buenos Aires, 1063 Buenos Aires.

Alan Turing may have cracked Nazi codes, but thousands of

Test: Turing Machine-Notation And Transition Diagrams 10

In fact, if \(L\) is a language over an alphabet \(\Sigma,\) and if \(M\) is a Turing machine that decides L, then it is easy to modify M to produce a Turing machine that accepts L. At the point where M enters the halt state with output 0, the new machine should enter a new state in which it simply moves to the right forever, without ever halting SUBLEQ V5 operates such: Mem[a,b]-=Mem[c,d]; If Mem[a,b] <=0 then Instruction Ptr += {e,f} So the instruction 0,0,0,0,0,0 will set Mem(0,0) = 0 and branch to itself. Parameters are arranged in the +X direction, and normal execution proceeds in the +Z direction, but these are easy to change

What's a Turing Machine? (And Why Does It Matter?) by

Normally used for machine learning, you might wonder why these are even useful for gaming. I'll have a separate piece digging deeper into the machine learning aspects of Turing, but in short there. A turing machine's *state* is simply a state in which a program can be in - for example, a door is in the state of 'open' or 'closed', and depending on that state, you may go through the door, or walk away, which are two distinct 'output' states which you transition to, given the initial state February 20, 1947. Alan Turing gives a talk at the London Mathematical Society in which he declares that what we want is a machine that can learn from experience.. Anticipating today's.

Turing's Marvelous Machine. Informally, a Turing machine is a mathematical model of a machine that mechanically operates on a tape. This tape contains squares where the machine can read or print a symbol using a tape head. The machine can also move left and right over the tape, one square at a time Turing completeness implies that any computation that can be performed in the language can be performed on a Turing machine and vice versa. According to the Turing Thesis, any problem that is computable by any machine can be solved using a Turing machine [Linz 1996]. which is a series of values taken by the cell over the course of logical.

Automata Theory Multiple Choice Quaestion & Answers (MCQs

These sequences can be allowed to slip, changing gradually over time. This module was inspired by the long history of shift register pseudorandom synth circuits, including the Triadex Muse, Buchla 266 Source of Uncertainly and Grant Richter's Noisering. This video explains how the Turing Machine works Turing Machine(TM) is an abstract version of a computer; this has been used to define formally what is computable. The Church‟s Thesis [4] is supported the fact that a Turing Machine(TM) can stimulate the behavior of general purpose computer system. Alan Turing, an English mathematician in 1936, suggests the concept of Turing Machine

Automata Theory Questions and Answers - Turing Machine

• Church-Turing Thesis: There is an effective procedure for solving a problem if and only if there is a TM that halts for all inputs and solves the problem. - There are many other computing models, but all are equivalent to or subsumed by TMs. There is no more powerful machine (Technically cannot be proved) THE TURING MACHINE Alan Turing's famous machine is an abstract automaton that can be in any one of a number of states and that is capable of moving back and forth on an infinitely long tape of instructions (customarily zeros and ones), reading and writing instructions on each segment of tape as it moves. Source for information on The Turing Machine: Computer Sciences dictionary Also of great interest are the several chapters in the second part of the book, based on the neural view given, which are devoted to the question of whether the brain can be simulated by a digital computer, to comparisons to a Turing Machine, to implications of Gödel, and very important, to Turing's Oracle machine concept as essential.

Photos: The life of Alan Turing - TechRepublic

Turing Machines At its logical base every digital computer embodies one of these over, the claims of the computer scien­ ring machine works is to try to build one. In this context buildi. Turing's 'Universal Machine' Alan Turing was the eccentric British mathematician who came up with the idea of modern computing and whose code breaking played a major role in the Allied victory over the Nazis in World War II. He was prosecuted in 1952 for having a homosexual affair (homosexual acts being illegal in Britain until 1967) and accepted a form of chemical castration as a condition of. 1 Turing Machine Languages Based on Chapters 23-24-25 of (Cohen 1997) Introduction A language L over alphabet is called recursively enumerable (r.e.) if there is a Turing Machine T that accepts every word in L and either rejects or loops forever on every wor

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